초록 ▼

A computer-implemented flight display system including a computer processor that is capable of determining a current energy situation of an aircraft, an electronic display device, and a graphical user interface (GUI) provided on the electronic display device. The GUI includes a current aircraft posi

A computer-implemented flight display system including a computer processor that is capable of determining a current energy situation of an aircraft, an electronic display device, and a graphical user interface (GUI) provided on the electronic display device. The GUI includes a current aircraft position symbol, an optimal aircraft position symbol, and at least one symbol indicating a position for changing aircraft configuration. Relative positioning on the GUI of the optimal aircraft position system and the at least one symbol indicating a position for changing aircraft configuration is based at least in part on the determined current energy situation of the aircraft.

대표청구항 ▼

1. A computer-implemented flight display system for assisting a flight crew of an aircraft to arrive at a final approach gate in an energy-stabilized manner, comprising: a computer processor that is capable of determining a current energy situation of the aircraft;an electronic display device; anda

1. A computer-implemented flight display system for assisting a flight crew of an aircraft to arrive at a final approach gate in an energy-stabilized manner, comprising: a computer processor that is capable of determining a current energy situation of the aircraft;an electronic display device; anda graphical user interface (GUI) provided on the electronic display device, wherein the GUI comprises the following symbols (1) through (3): (1) a current aircraft position symbol indicative of a current position of the aircraft;(2) at least one intermediate configuration change symbol indicating a first future position of the aircraft for changing aircraft configuration to an intermediate configuration, wherein the intermediate configuration represents a configuration of greater drag as compared to a current aircraft configuration and involves the extension of one or more of: flaps, airbrakes, and landing gear; and(3) a final configuration change symbol indicating a second future position of the aircraft for changing aircraft configuration to a final configuration, wherein the final configuration represents a maximum drag configuration of the aircraft that is greater than the intermediate configuration and involves the extension of each of: flaps, airbrakes, and landing gear, and wherein the second future position represents the position after which, regardless of aircraft configuration, the aircraft can no longer arrive at the final approach gate in the energy-stabilized manner,wherein relative positioning on the GUI of the symbols (1) through (3) is based at least in part on the determined current energy situation of the aircraft such that symbols (2) and (3) are each respectively spaced apart from symbol (1) a distance in proportion to the distance of the first future position and the second future position are each respectively located in reference to the current position of the aircraft. 2. The system of claim 1, wherein the computer processor determines the current energy situation of the aircraft based on a distance to go of the aircraft to a final gate. 3. The system of claim 1, wherein the GUI is implemented as a graphical element on existing aircraft display blocks, as a standalone display on an existing aircraft display, or as a standalone display running on an electronic flight-bag of the aircraft. 4. The system of claim 1, wherein the intermediate configuration change symbol comprises a range symbol indicative of a future positional range for changing aircraft configuration. 5. The system of claim 1, wherein the GUI further comprises a position trend symbol indicative of a future position of the aircraft after a predetermined period of time. 6. The system of claim 1, wherein the GUI further comprises a second intermediate configuration change symbol indicating a third future position for changing aircraft configuration to a second intermediate configuration. 7. A computer-implemented flight display system for assisting a flight crew of an aircraft to arrive at a final approach gate in an energy-stabilized manner, comprising: a computer processor that is capable of determining a current energy situation of the aircraft;an electronic display device; anda graphical user interface (GUI) provided on the electronic display device, wherein the GUI comprises the following symbols (1) through (3): (1) a current aircraft speed symbol indicative of a current speed of the aircraft;(2) at least one intermediate configuration change symbol indicating a first increased aircraft speed that is greater than the current aircraft speed for changing aircraft configuration to an intermediate configuration, wherein the intermediate configuration represents a configuration of greater drag as compared to a current aircraft configuration and involves the extension of one or more of: flaps, airbrakes, and landing gear; and(3) a final configuration change symbol indicating a second increased aircraft speed that is greater than first increased aircraft speed for changing aircraft configuration to a final configuration, wherein the final configuration represents a maximum draft configuration of the aircraft that is greater than the intermediate configuration and involves the extension of each of: flaps, airbrakes, and landing gear, and wherein the second increased aircraft speed represents the speed beyond which, regardless of aircraft configuration, the aircraft can no longer arrive at the final approach gate in the energy-stabilized manner,wherein relative positioning on the GUI of the symbols (1) through (3) is based at least in part on the determined current energy situation of the aircraft such that symbols (2) and (3) are each respectively spaced apart from element (1) a distance in proportion to a difference in speed between the first increased aircraft speed and the second increased aircraft speed are each in reference to the current speed of the aircraft. 8. The system of claim 7, wherein the intermediate configuration change symbol comprises a range symbol indicative of a speed range for changing aircraft configuration. 9. The system of claim 7, wherein the GUI further comprises a speed trend symbol indicative of a future speed of the aircraft after a predetermined period of time. 10. The system of claim 7, wherein the GUI further comprises a second intermediate configuration change symbol indicating a third increased aircraft speed for changing aircraft configuration to a second intermediate configuration.